Berkeley Timesharing System

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Berkeley Timesharing System
Developer University of California, Berkeley
Working stateDiscontinued
Available in English
Platforms Scientific Data Systems' SDS 940

The Berkeley Timesharing System was a pioneering time-sharing operating system implemented between 1964 and 1967 at the University of California, Berkeley. It was designed as part of Project Genie and marketed by Scientific Data Systems for the SDS 940 computer system. It was the first commercial time-sharing which allowed general-purpose user programming, including machine language.

Contents

History

In the mid-1960s, most computers used batch processing: one user at a time with no interactivity. A few pioneering systems such as the Atlas Supervisor at the University of Manchester, Compatible Time-Sharing System at MIT, and the Dartmouth Time Sharing System at Dartmouth College required large expensive machines. Implementation started in 1964 with the arrival of the SDS 930 which was modified slightly, and an operating system was written from scratch. [1]

Students who worked on the Berkeley Timesharing System included undergraduates Chuck Thacker and L. Peter Deutsch and doctoral student Butler Lampson. [2] The heart of the system was the Monitor (roughly what is now usually called a kernel) and the Executive (roughly what is now usually called a command-line interface). [3]

When the system was working, Max Palevsky, founder of Scientific Data Systems, was at first not interested in selling it as a product. He thought timesharing had no commercial demand. However, as other customers expressed interest, it was put on the SDS pricelist as an expensive variant of the 930. [4] By November 1967 it was being sold commercially as the SDS 940. [5] By August 1968 a version 2.0 was announced that was just called the "SDS 940 Time-Sharing System". [3] Other timesharing systems were generally one-of-a-kind systems, or limited to a single application (such as teaching Dartmouth BASIC). The 940 was the first to allow for general-purpose programming, and sold about 60 units: not large by today's standards, but it was a significant part of SDS' revenues. [4]

One customer was Bolt, Beranek and Newman. The TENEX operating system for the PDP-10 mainframe computer used many features of the SDS 940 Time-Sharing System system, but extended the memory management to include demand paging. [6]

Some concepts of the operating system also influenced the design of Unix, whose designer Ken Thompson worked on the SDS 940 while at Berkeley. The QED text editor was first implemented by Butler Lampson and L. Peter Deutsch for the Berkeley Timesharing System in 1967. [7]

Another major customer was Tymshare, who used the system to become the USA's best known commercial timesharing service in the late 1960s. By 1972, Tymshare alone had 23 systems in operation. [8]

See also

Related Research Articles

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Tymshare, Inc was a time-sharing service and third-party hardware maintenance company. Competing with companies such as CompuServe, Service Bureau Corporation and National CSS. Tymshare developed and acquired various technologies, such as data networking, electronic data interchange (EDI), credit card and payment processing, and database technology. It was headquartered in Cupertino in California, from 1964 to 1984.

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Community Memory (CM) was the first public computerized bulletin board system. Established in 1973 in Berkeley, California, it used an SDS 940 timesharing system in San Francisco connected via a 110 baud link to a teleprinter at a record store in Berkeley to let users enter and retrieve messages. Individuals could place messages in the computer and then look through the memory for a specific notice.

<span class="mw-page-title-main">SDS 930</span> Commercial 24-bit computer using bipolar junction transistors sold in the 1960s

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The Universal Time-Sharing System (UTS) is a discontinued operating system for the XDS Sigma series of computers, succeeding Batch Processing Monitor (BPM)/Batch Time-Sharing Monitor (BTM). UTS was announced in 1966, but because of delays did not actually ship until 1971. It was designed to provide multi-programming services for online (interactive) user programs in addition to batch-mode production jobs, symbiont (spooled) I/O, and critical real-time processes. System daemons, called "ghost jobs" were used to run monitor code in user space. The final release, D00, shipped in January, 1973. It was succeeded by the CP-V operating system, which combined UTS with features of the heavily batch-oriented Xerox Operating System (XOS).

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The SDS 9 Series computers are a backward compatible line of transistorized computers produced by Scientific Data Systems in the 1960s and 1970s. This line includes the SDS 910, SDS 920, SDS 925, SDS 930, SDS 940, and the SDS 945. The SDS 9300 is an extension of the 9xx architecture. The 1965 SDS 92 is an incompatible 12-bit system built using monolithic integrated circuits.

SUPER BASIC, sometimes SBASIC for short, is an advanced dialect of the BASIC programming language offered on Tymshare's SDS 940 systems starting in 1968 and available well into the 1970s.

References

  1. Paul Spinrad and Patti Meagher. "Project Genie: Berkeley's piece of the computer revolution". University of California, Berkeley Engineering. Archived from the original on 2011-07-19. Retrieved April 17, 2011.
  2. Butler Lampson - Systems
  3. 1 2 SDS 940 Time-Sharing System (Version 2.0) Technical Manual (PDF). Santa Monica, California: Scientific Data Systems. August 1968. Retrieved April 17, 2011.{{cite book}}: |work= ignored (help)
  4. 1 2 Michael A. Hiltzik (April 4, 2000). The Dealers of Lightning: Xerox PARC and the Dawn of the Computer Age. HarperCollins. pp. 18–20. ISBN   0-88730-989-5.
  5. SDS 940 Time-Sharing System Technical Manual (PDF). Santa Monica, California: Scientific Data Systems. November 1967. Retrieved April 17, 2011.{{cite book}}: |work= ignored (help)
  6. Dan Murphy (1996). "Origins and Development of TOPS-20" . Retrieved April 17, 2011.
  7. Dennis Ritchie (February 12, 2004). "An incomplete history of the QED Text Editor". Murray Hill: Bell Labs. Retrieved April 17, 2011.
  8. "Timesharing as a Business". Computer History Museum . Retrieved April 17, 2011. (includes pictures)

Further reading

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